If machines are a reflection of their creator, then their ability to save the imperilled arises from our pursuit of empathy, our willingness to throw our chips behind the right cause when and where the money matters.

This year, a young start-up company wowed the judges of the European Satellite Navigation Competition, beating an array of strong contenders for the grand prize. The POSEIDRON drone, developed by Sincratech Aeronautics, uses thermal imaging and spatial positioning software to find people stranded at sea. It’s able to deploy a dingy for shipwreck survivors, and is equipped with a transmitter to alert rescue teams to their peril. It looks like an orange lily flower, with its octagonal bloom of rotor blades hovering gently in the air. POSIEDRON is symbolic of the encroaching prevalence of drones on the cutting edge of tech innovation, especially since a drone with built-in software capabilities has carved its mark in a competition usually dominated by satellite relays and GPS platforms.

For some, this may be emblematic of the rise and rise of UAV application in the emergency services. If you’re on the frontline of danger, then it makes sense to have a good toolkit at your heel – it is hazardous to wade into modern problems without a suitable modern solution. The problems our emergency services face, compounded by belt-tightening in tough economic climates, mean cost-efficiency and intelligence are vital to navigating increasingly crowded cityscapes, coastal regions and disaster-struck rural areas with the thoroughness these environments call for. Drones are an eye in the sky that serve to compliment ground forces, not banish them entirely. As such, they are being lauded around the world as a user-friendly weapon in the fight against the gravest consequences of human error, natural catastrophe, or plain and simple neglect.

The Napalese earthquake, for instance, has been a yardstick of sorts for the feasibility of UAVs in disaster zones. Rescue Global and Pix4D were among 15 companies that were brought in under the leadership of Patrick Meir for the Mapping Nepal project, in which drones were sent to survey pockets of ruined towns and villages. The effort painted a widescreen picture of the damage and bodes well for home-grown operators being commonplace in countries at risk from something similar, disseminating a pool of expert knowledge. UAVs, though, remain to be useful for rapid response tasks of all sizes. Utah’s County Sheriff’s office is looking to buy one, mimicking around a dozen UK police forces hopping on the drone bandwagon to further assist their search and rescue capabilities.

In fact, Britain is already becoming an acolyte of emergency drone deployment, with drones hitting local news headlines quicker than the ink can dry. Manchester Fire Service has been prolific in its drone activities – a blaze near Victoria station back in October was dealt with swiftly thanks to a new drone model equipped with an infrared camera. The fire department was happy to tweet about their victory, capturing the UAV moments before take-off, its red light pulsing on the tarmac. Jetliner passengers could see smoke rising from the seven-story CWS building, so this was a serious deal. Luckily Manchester’s team have round-the-clock drone capabilities and were more than up to the task, and more are following their example across the country, scanning for the fiercest parts of a fire without health or visibility issues.

Farther afield, emergency relief in isolated or disused areas is breaking free of time-worn handicaps. Rwanda has been chosen as the first ‘drone port’ for the delivery of medical supplies in 2020 – President Paul Kagame has plans to turn its capital, Kigali, into a real prospect for technology investors. The 1994 genocide left much of the city’s infrastructure in a state of collapse, yet drones are representative of Rwanda’s ascension to normalcy, helping to carry building materials, vaccines and other precious cargo over the rolling hills that have made the country notoriously difficult to navigate. Jonathan Ledgard, from the Afrotech initiative, told The Guardian in September: “It is inevitable on a crowded planet, with limited resources, that we will make more intensive use of our sky using flying robots to move goods faster, cheaper and more accurately than ever before.” He is a realist as much as a publicist, acknowledging “it is not inevitable that these craft or their landing sites will be engineered to be tough and cheap enough to serve poorer communities who can make most use of them.” The dichotomy between rich and poor, though, does not warrant the exclusion of UAVs for the bottom rung of the ladder, especially since models are becoming cheaper and more efficient as commercial demand drives tech specs to their fullest potential. The scope for drones being used as supply drops will expand radically in the next decade as RPAS systems become more capable in the long-haul entrustment of heavy goods.

How drones will fit into society comes down to where we locate our priorities. If machines are a reflection of their creator, then their ability to save the imperilled arises from our pursuit of empathy, our willingness to throw our chips behind the right cause when and where the money matters. Hopefully, the sight of an impersonalised robot will bring great joy from those in a danger, a feeling that everything will work out and come right again. For that, ladies and gentlemen, is the true marvel of progress.

For more insights into UAVs within emergency services, visit the SkyTech 2016 UAV conference & exhibition taking place in January in London. Further details can be found at www.skytechevent.com

The content & opinions in this article are the author’s and do not necessarily represent the views of RoboticsTomorrow

Comments (0)

Post A Comment

Featured Product

RTX64 turns the Microsoft 64-bit Windows operating system into a Real-time operating system (RTOS). RTX64 enhances Windows by providing hard real-time and control capabilities to a general purpose operating system that is familiar to both developers and end users. RTX64 consists of a separate real-time subsystem (RTSS) that schedules and controls all RTSS applications independently of Windows.RTX64 is a key component of the IntervalZero RTOS Platform that comprises x86 and x64 multicore multiprocessors, Windows, and real-time Ethernet (e.g. EtherCAT or PROFINET) to outperform real-time hardware such as DSPs and radically reduce the development costs for systems that require determinism or hard real-time.